![]() ![]() In their new paper, the authors modify this argument by proposing three dimensions of time and a single spatial dimension, which they acknowledge does give rise to its own problems.Īccording to Dragan and Ekert, “generalizing this scheme to a relativistic framework in a 1+3 dimensional spacetime poses some serious challenges, both mathematical and interpretational.” However, the researchers believe the answer to overcoming these challenges involves the extension of special relativity to incorporate frames of reference that might occur at faster-than-light speeds. “Instead,” they write, “such an extension modifies the notion of causality in the same way quantum theory does.” The researchers cite alleged problems proposed in the past that are related to the relationship between cause and effect, which result from the presence of superluminal particles when viewed within existing frameworks for relativity, where only one dimension of space and time is presumed to exist. ![]() However, they further argue that superluminal objects would require descriptions within the framework of field theory, meaning the existence of such objects is logically consistent with past models.īased on past observations by lead author Andrzej Dragan and colleague Artur Ekert, the pair and their co-authors of a recent paper argue that such an extension of special relativity would not give rise to paradoxes as past research has proposed. Within such a framework, the researchers argue that spontaneous events that can occur in the absence of a deterministic cause and other strange phenomena would be experienced by observers moving faster than the speed of light within a vacuum, concepts that potentially transform our concept of time as we know it. ![]() The researchers involved say they have developed “an extension of special relativity” that incorporates three individual time dimensions with a single space dimension, which helps explain how observations made by “superluminal” observers-inertial observers moving faster than the speed of light-might appear. Theoretical physicists from Warsaw and Oxford universities argue that a superluminal world possessing three temporal dimensions and one dimension in space could potentially change our concept of time, according to a new paper. ![]()
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